Biology Reference
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Webb DM, Baltazar BM, Rao-Arelli PA, Schupp J, Clay-
ton K, Keim P, Beavis WD (1995) Genetic mapping of
soybean cyst nematode race-3 resistance loci in soybean
PI437.654.
Theor Appl Genet
91:574-581.
Williams C, Gilman DF, Fontenot DS, Birchfield W (1981)
Inheritance of reaction to the reniform nematode in soy-
bean.
Crop Sci
21:93-94.
Williamson VM (1998) Root-knot nematode resistance genes
in tomato and their potential for future use.
Annu Rev
Phytopathol
36:277-293.
Wilson RF (2004) Seed composition. In: Boerma HR, Specht
JE (eds) Soybeans: improvement, production, and uses.
Agron Monogr, 3rd ed. No. 16, ASA-CSSA-SSSA,
Madison, WI, 621-677.
Winstead NN, Skotland CB, Sasser JN (1955) Soybean cyst
nematode in North Carolina.
Plant Dis Rep
39:9-11.
Winter SMJ, Shelp BJ, Anderson TR, Welacky TW, Rajcan
I (2007) QTL associated with horizontal resistance to
soybean nematode in
Glycine soja
PI644925B.
Theor
Appl Genet
114:461-472.
Wrather JA, Niblack TL, Milam MR (1992) Survey of plant-
parasitic nematodes in Missouri cotton fields.
Suppt J
Nematol
24:745-748.
Wu X, Blake S, Sleper DA, Shannon JG, Cregan PB, Nguyen
HT (2009) QTL, additive, and epistatic effects for SCN
resistance in PI 437654.
Theor Appl Genet
118:1093-
1105.
Wubben MJ, Calahan FE, Scheffler BE (2010a) Transcript
analysis of sedentary parasitic females of the semi-
endoparasitic nematode
Rotylenchulus reniformis
.
Mol
Biotechnol Parasitol
172:31-40.
Wubben MJ, Ganji S, Callanhan FE (2010b) Identification
and molecular characterization of a
β
-1,4-endoglucanase
gene (Rr-eng-1) from
Rotylenchulus reniformis
.
JNema-
tol
42:342-351.
Wubben MJ, Jin J, Baum TJ (2008) Cyst nematode par-
asitism of
Arabidopsis thaliana
is inhibited by sali-
cylic acid (SA) and elicits uncoupled SA-independent
pathogenesis-related gene expression in roots.
Mol Plant-
Microbe Interact
21:424-432.
Wubben MJ, Rodermel SR, Baum TJ (2004) Mutation of a
UDP-glucose-4-epimerase alters nematode susceptibil-
ity and ethylene responses in Arabidopsis roots.
Plant J
40:712-724.
Xie W, Feng Q, Yua H, Huang X, Zhaob Q, Xinga Y, Yua
S, Hanb B, Zhanga Q (2010) Parent- independent geno-
typing for constructing an ultrahigh-density linkage map
based on population sequencing.
Proc Natl Acad Sci USA
107:10578-10583.
Xu X, Zeng L, Tao Y, Vuong T, Wan J, Boerma R, Noe J,
Li Z, Finnerty S, Pathan MD, Shannon S, Nguyen HT
(2013) Pinpointing the genes underlying a QTL for root-
knot nematode resistance in palaeopolyploid soybean by
whole genome resequencing.
Proc Natl Acad Sci USA
110:13469-13474.
Yates JL, Hussey RS, Finnerty SL, Boerma HR (2010) Three
soybean plant introductions possess unique resistance to
peanut root-knot nematode.
Crop Sci
50:118-122.
Young LD (1990) Soybean germplasm evaluated for resis-
tance to races 3, 5, and 14 of soybean cyst nematode.
Crop Sci
30:735-736.
Young LD (1998)
Heterodera glycines
populations selected
for reproduction on Hartwig soybean.
J Nematol
30:
523.
Young LD (1999) Soybeans resistant to
Heterodera glycines
populations
attacking
Hartwig
soybeans.
J
Nematol
31:583 (Abstract).
Yue P, Sleper DA, Arelli PR (2001) Mapping resistance
to multiple races of
Heterodera glycines
in soybean PI
89772.
Crop Sci
41:1589-1595.
Zhang L, Dean RA, Knap HT, Lewis SA (1998) Diversity
among a
Heterodera glycines
field isolate and derived
inbreds based on RAPD analysis and reproduction on
soybean genotypes.
J Nematol
30:477-484.
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